Machine for broaching



@ct. 31, 1933. H. M. STAINF'IELD MACHINE FOR BROACHING Original Filed Sept. 18, 1926 '7 Sheets-Sheet 1 Oct. 31, 1933. H. M. STAINFIELD MACHINE FOR BROACHING Original Filed Sept. 18, 1926 7 Sheets-Sheet 2 n m& m 4 A M t w W w W m ,www U n m m m J v IM/ H. M. STAINFIELD 1,933,080

MACHINE FOR BROACHING Oct. 31, 1933.

Original Filed Sept. 18. 1926 7 Sheets-Sheet 3 TI GL3 L9G a 2 23 4 l9}; /9 I244 a e Oct. 31, 1933. H. M. STAINFIELD MACHINE FOR BROACHING Original Filed Sept. 18, 1926 7 Sheets-Sheet 4 Oct. 31, 1933. H. M. STAINFIELD MACHINE FOR BROACH-ING Original Filed Sept. 18, 1925 '7 Sheets-Sheet 5 Snow W01 M hi4 I 1% Oct. 31, 1933. H. M. STAINFIELD 1,933,080

MACHINE FOR BROACHING Original Filed Sept. 18, 1926 7 Sheets-Sheet 6 41W, m fw Z mm W Oct. 31, 1933. sTAlNFlELD 1,933,080

MACHINE FOR BROACHING Original Filed Sept 18, 1926 7 Sheets-Sheet '7 HZzL'IrnEy Patented Oct. 31, 1933 UNITED STATES PATENT OFFICE Application September 18, 1926,

Serial No.

136,253. Renewed February 27, 1933 '7 Claims. (CI. 9033) This invention relates to a machine for effecting broaching operations on bodies or blanks of varying shapes and sizes.

One object of the invention is to provide a machine of this character that may be readily adapted to broaching the Walls or surfaces of bodies or blanks, the walls of openings extending therethrough or the walls of slots formed in the bodies or blanks.

Another object of the invention is to provide a machine of this character that is relatively simple in construction, but permits of large output.

Another object of the invention is to construct 5 an improved machine of this character wherein the broaching tool or tools may be readily mount: ed. and removed.

A further object of the invention is to provide Another object of the invention is to provide an improved broaching machine wherein, by

*5 means of an endless carrier for the blanks, two or more broaching operations upon each blank may be carried out simultaneously.

Other objects of the invention will be apparent to those skilled in the art to which my invention relates from the following description taken in connection with the accompanying drawings, wherein Fig. 1 is a plan view of a machine embodying my invention.

Fig. 2 is a section on the lines 22 of Figs. 1

and 3.

Fig. 3 is a section on the line 3-3 of Fig. 2.

Fig. 4- is a fragmentary perspective view of a section of the broaching tool.

Fig. 5 is a section of the tool on the line 55 of Fig. 4.

Fig. 6 is a plan view of a body formed with openings at its ends, the walls of which are to be broached; the body herein shown for illustrative purposes consisting of a spanner.

Fig. 7 is a side view of the body shown in Fig. 6.

Fig. 8 is a plan view of a broaching machine ofa diil'erent form of construction but embodying my invention.

Fig. 9 is a longitudinal section of the machine shown in Fig. 8.

Fig. 10 is a section on the line 1010 of Fig. 9.

Fig. 11 is a section onthe line 1111 of Fig. 9;

Fig. 12 is a fragmentary section on the line 1212 of Fig. 8, but showing a slightly modified construction for the mounting of the blank .to be broached.

Fig. 13 is a detail view of the blank mounting taken on'the line 13-13 of Fig. 12.

Fig. 14 is a side elevation of the broaching tool used in the form of construction shown in Figs. 8 to 13, inclusive.

Fig. 15 is an end view and Fig. 16 is aside view (parts of the latter being broken away) of a blank wherein the opening (the walls of which are tobebroached) extends through it.

Fig. 17 is a transverse vertical. section of a modified form of the invention and y Fig. 18 is a fragmentary plan view thereof.

Referring to Figs. 1 to '7, inclusive, of the drawings, 1 indicates as an entirety a support preferably comprising a base 1a and spaced side members 1b which may be formed integrally therewith. On the base 1a and between the side members 11) I support an elongated trough or receptacle 2 for holding a quantity of cutting compound, such as lard oil and the like. The side members 1b support a pair of transverse shafts 3, 3a, preferably disposed at'the opposite ends thereof, and mounted in suitable bearings 4, one of these shafts (3) being driven by a driving means indicated as an entirety at 5. The shafts 3, 3a, have secured to them pairs of sprocket wheels 6, 6, 7, 7, respectively, on and around which a carrier such as a pair of endless chains 8, 8, run in a well known manner. Each sprocket 6, 6, 7, 7, may be keyed to the adjacent shaft, such connection being desirable between the shaft that is driven and the sprockets thereon and each is adjustably secured to the adjacent shaft by suitable means, such as a set screw 9 fitting and extending through a threaded opening in the hub of the sprocket, to permit of the adjustment of each sprocket endwise of its shaft to space the chains 8, 8, relative to each other and the broaching tool or tools 10, 10,to be later referred to, dependent upon the size and shape of the bodies or blanks to be broached.

Of the driving means 5, 11 indicates a shaft mounted insuitable hearings in the side members 1b and extending outwardly or laterally beyond one thereof, such extended end carrying a pinion 12 and an element 13 to which power is applied. In the illustrated form of construction, such power element consists of a pulley, around which a belt 14 runs to drive it. Ihe pinion 12 forms one element of a gear train 15 the driven element 15aof which is fixed to the shaft 3, and through the latter and the sprockets 6, 6, thereon serves to drive the chains 8, 8.

In the form of construction now being described the broaching tool or tools 10, 10, are held stationary and the work orubodies to be broached are engaged by the chains '8; 8; and moved relative to the tools. This. arrangement serves to increase the output by facilitating the positioning of the work and providing for the broaching of a plurality of blanks or bodies simultaneously and also the broaching of "each blank at its opposite ends simultaneously, if desired. i In one application of my invention, illustrated herein bywayof example, it may be used to breach-a wrench of the spanner typeysuch as shown at A in Figs. 6 and '7, wherein=openings ornotches a are formed in its ends.

The broaching tools 10, 10, are supported on and'secured to the' upper edges of the side membersl-b. -In the illustrated form 'of construction one tool? lo is mounted on'eachside inemben'but it willeb'e obvious that either or both side menibersirmay carry a plurality of tools. The construction and shape of the securingmeans will depend upon' the formi'of broaching tool required for the particular'construction and shape of the blanks to bebroached. Each tool :herein shown is: adjustably supported and'held in position in the following manner: 16 indicates a'horizontal support preferably ccornprising i integral flanges extending longitudinally of the upper end of each side member 1b :and "serving as a base for a casing 17. The casing -17comprises two members 17a, 1%, extending longitudinally i of the support or base- 16 and'correlated ,1 to'clamp between them the adjacent tool 10. JEach casing 17 ":isypreferably mounted on series ofkbolts 18, 18,12h036 =of one series extending upwardly through screw-threaded openings formed along the inner portion-of thebase 16 and engaging the casing at their free ends and those "of thefiother series gpreferably extending through openings formed in-a flange 170 provided along the outer wall of the casing element 17a and'engaging the base 16 at their freeends. By adjusting the bolts 1838a, it-will be seen that the casing 17may be bodily raisedor lowered and alsovinclined at dif' ferent' angles to position the tool or its broaching edge-improper position toefiectbroacliing of the bodies-A as theya-re carried forwardly by the chains 8. Each of the'bolts 18, 18a, "may be locked in adjusted -position :by a nut 13b. "The casing 1'! is clamped-to the base 16 in'any desired manner, preferably by devices indicated at 19, which secure the two casing members 17a, 17b, together to clamp the adjacent tool between 1 them andalso clamp the casing to the base 16.

The-deviceslQ preferably comprise'a'plurality of bolts 19a extending through aligned openings 19b, 190, formed in the casing'members 17a, 171), respectively, andalso through elongated slots 19d formed in base '16, the head of eachbolt engaging the underside of the base 16 (see Fig. 3) and a nut;19c being mounted'onthe upper or free end of the bolt and tightened against the casing member 17b. The slots 19d-are elongated to per- 7 mit of adjustment 0f the casing'l-"I inwardly and outwardly or toward and from the other casing 17, to adjust the tool carried by it. The casing member 17a is provided along its outer edge with an upstanding wall 17a which serves as a fulcrum for the outer longitudinal edge of the easing member 1%. As the clamping devices 19 are disposed between the wall 17a and the adjacent tool; the tightening of these devices operates to press the inner longitudinal edge of the member 171) against the body portion 10a of the tool and hence clamp it between the casing members. To interlock the tool 10 between the casing members and in relatively stationary position, as

'well as to permit of its adjustment inwardly and outwardly, I provide the body portion 16a of the tool with diverging upper and lower faces and provide similarly disposed faces on the inner walisof the casing members 17a, 171), such walls cooperating to prevent inward movement of the tool 19. To prevent outward movement of the tool, 'I provide'a series of abutments '20, which may be adjustable, that oo-act with the clamping walls or faces to maintain the vbroaching tool .inposition. Theabutments 20 preferably comprise bolts 20a mounted in screw-threaded openings formed in the wall 17a, the inner or free ends of the bolts engaging the rear wall of the tool (see Fig. 3). The bolts 20a may be locked in adjusted position by nuts 20b. It will be noted that the tools 10 herein shown have a body "portion 16a and an edge supporting portion 10b which is disposed at aniangle to the body portion according to the angle of the slot walls to be broached and that the tool on one'base 16 is disposed opposite to the tool on the other base 16 to'correspond to the angle'or inclination of the slots a of the work (see Fig. 6). To provide for these arrangements, the walls of the respective casing members, 17a, 171), are thickened, will be understood from Fig. 3. Along its inner free edge 'or portion, the casing member 1722 is extended, as shown at-21, so that the upper surface of such extended portion may forma guide'wall for a shoe 22, which will be later referred to. Either or both of the inner end walls of the casia members 17a, 17b, are preferably shaped to form surfaces shown at 23, 23a, (Fig. 3) that are complementsof the walls a, a, of the blank A at either side of either or both slots :1. The chains 8, 8, serve to move the blanks relative to the tools 10 and throughout such movement, their end walls a slidably engage the surfaces 23, 23a, whereby they are maintained in a predetermined relation 'to the broaching tools 10, 1G.

The blanks A are removably supported or mounted on the chains 8 in such manner that they may be guided and maintained in a predetermined relation to the tool independently of the chain so that the flexing and vibration of the latter will not affect the breaching operations;

The mounting means for the blanks may be of any desired construction, but preferably comp-rise pairs-of devices 24, 25, carried by certain of the links of the chains 8, the former being disposed on the rear sides of the blanks A and serving to sprockets .7 to traverse their upper run. As a result, one operative can conveniently and rapidly position the blanks one after another on the chains, and the separationof the devices permits them to drop by gravity as the devices move around the sprockets 6, into a suitable chute or receptacle (not shown). The supporting devices may be of varying shapes dependent upon the construction of the blank and shape of the breaching tools.

In the illustrated form of construction, each supportingmember- 24 comprises the following: 24a indicates a base plate extending between the chains 8, 8, and secured at each end to the inturned members 8a of the side bars 8b of a chain link, each member 8a preferably beingv formed integral with the adjacent side bar. 242) indicates upstanding bars, preferably disposed in the vertical planes of the chains 8 and provided with faces 240 which engage the blanks A. As shown in Fig. 3, the faces. 240 are shaped to extend around the slots a of the blank and thus'operate to engage the blank at points relatively close to the surfaces engaged by the broaching tools. 24d indicates a bar or tie member connecting the upper ends of the bars 241) together and carrying at their opposite ends the shoes 22 already referred to. Due to the inclination of the slots at and the shape of the walls a in which the slots at are formed, one shoe 22 extends laterally for engagement withthe guide 21, whereas at the other end of the tie-member 24d, the shoe 22 is provided by bending the free end of the member downwardly. I preferably provide two clamping devices 25 for each blank A, each being pivoted on a base plate 25a formed integrally with the side bars of one of the links of the chain and aligned with the device 25 on the other chain 8. Each device 25 comprises a rearwardly extending arm 25b having a blank engaging wall 25c at its outer end and an enlarged lug 25d on its lower side, serving as a weight to insure the return of the device to blank engaging position as it moves to the upper portion of the sprockets 7. As shown at 2512' in Fig. 3 (see dotted lines), the wall 250 of each device 25 is cut away so as. to avoid danger of contact with the tool. By preference, the supporting devices 24, 25, of each pair are separated from each other by one link and the several pairs thereof are separated from each other by one link, thereby providing the maximum number on the chains.

Each of the tools 10 may be of any desired length, but preferably it has a length equal to the travel of the chains along their upper run,

so that the breaching operation may be carried on throughout a relatively long travel of the blanks. Each tool 10 comprises upper and lower sections 10a, 18b, correlated to provide teeth or cutting edges on their outer sides and ends, each tooth on one section aligning with a tooth on the other section; furthermore, the sections 10a, 10b, are preferably made up of a plurality of segments 1cm disposed in pairs. This arrangement permits the tools to be of varying lengths according to the size of the machine or constru tion of the blanks Without danger of the tools becoming warped or distorted; for example, the tool may be five feet in length and formed of segments each one foot in length; also, as will be understood from Figs. 2, 3, 4 and 5, the pairs of segments may be so constructed that one segment of each pair overlaps the joint between the segments of adjoining pairs; in other words, instead of the meeting edges of the teeth on one .pair

of segments being in line with the meeting edges of the teeth on adjoining pairs, the meeting edges of the teeth of one pair of segments is off-set relative to the meeting edges of the teeth of both adjoining pairs of segments. By this arrange ment, the teeth on one pair of segments overlap the joint between the teeth on the adjoining pairs of segments and thus insure broaching of the blank entirely across the bottom wall of the slot to be broached; otherwise, due to re-sharpening of the teeth, they would become separated along the joint between the segments of each pair and hence leave metal on the blank that should be removed; The segments 10$ of each pair may be securedtogether by countersunk cap screws 100.

It will be understood that the teeth of the tool vary slightly in size of approximately one and onehalf to two thousandths of an inch from end to end thereof. If-the tool were made from a single member or upper and lower sections, re-:

sharpening. of its breaching edges would soon make. the tool under-size. in sections, made up of pairs of segments, each pair of the latter after it has become undersized, may be moved along the tool support the length of a pair of se ments, and when it again becomes undersized, it may be again moved along the adjacent support and replace the adjoining pair of segments.

This permits the respective pairsof segments to be progressively moved the length of one pair thereof toward the left (as viewed in Fig. 2) and successively used until each pair becomes reduced in size below the cutting limit at the extreme left hand end of the support. By reason of this construction, a material saving of up-keep results.-

Referring to Figs. 8 to 16, inclusive, I illustrate the application of my invention to the broaching of an opening I), which extends through the blank B. In these views, 1' indicates as an entirety the support having a base 1a and side members 1b. In this form of construction I may shape and construct the support 1 so as to form a tank for the cutting compound. The side members 1b support a pair of transverse shafts 3, 3a, disposed in spaced relation and mounted in suitable bear- By making the tool.

ings 4', one of these shafts (3) being driven bya In this form of construction, the blank B is mounted on a support, indicated as an entirety at 26 and the broaching tool, indicated as an entirety at 1091:, isremovably mounted on the chains 8 and is pulled thereby through the opening 2) in the blank B.- The support 26 may comprise a pair of transverse bars or plates 26a, 26b, extending between and supported at their opposite ends by the side members lb or standards extending upwardly therefrom andspaced from each other a distance slightly greater than the vertical width of the opening I), so to engage the upper and lower portions or. walls of :the blank B. As shown in Fig. 10 the transverse bars 26a, 26b, are disposed in planes above and below the plane of the run of the chains 8', so that the opening I) to be broached may be arranged in the plane inwhich the tool 10x travels (see Fig. 9)

The driving -mean's' 5 preferably comprise a shaft 11 mounted :in suitable bearings :in the side memberslb' and'carrieson its extended end a gear 12' and .a power-element, suchas a pulley 13 for a belt 14. .The gear l2' 'meshes witha pinion 1511' which is fixed'to the shaft 3'.

The tool 10:: comprisesa body portion, on'which the teeth arecut, and a shank 10m, which is detachabiy' connected to the chains 8' in the manner to be later 'setforth. The cutting teeth extend entirely around the body portion, so as to effect breaching on all of the inner walls of the opening b. :The'teeth on the body portion are formed inia well known manner.

21b, 21a, indicate a'pair of transverse members, each supported .at its opposite ends by two aligned links of the chains '8, and arranged-to engage the tool shank 102:, whereby the tool is pulled endwise through the opening b. The'tool shank low is interlocked with the transverse members by suitable devices which permit ready engagement with and disengagement from the members 21b, 21a, these devices preferably comprising a hook-like end 22b which engages the member2lb and the end wall of a notch 22a toreceive the member 21a, the latter also serving, by its co-operation with the hook end 22b and member 21b, to support the tool in the plane of the chains and between them. In the form of .construction shown in Figs. 8. and 9, the opening for the hook end 221) leads inwardly from the edge of the shank 100:, which. arrangement .permits the tool to release itself from the members 21b, 21a, and fall downwardly as it is carried by the chains 8' around the sprockets 6 (see dotted lines in Fig. 9). In Fig. 14 I haveshown a modified form of construction in which the hook 22 is reversed, so that its opening leads inwardly from the upper edge of the tool shank 10x. Either form of construction permits the tool shank 101: to be readily connected toand detached from the supporting members 21b, 21a. Where the shank is construced as shown in Fig.9, the hook end 2212 is undercut sufficiently to prevent the tool'from dropping downwardly between the chains due to the weight of its body portion. "For the purpose of forming seats for the tool shank 10m and insuring its positioning in a plane centrally between the chains, the transverse members 21, 21a, at the center portions are reduced for a distance equal to the thickness of the tool shank 10m, to form seats midway between the chains. As a result, the shoulders 21' formed by the reduced portions will operate to properly position the tool and hold it in such position as it is moved or pulled endwise by the chains 8. As the shank seats are in alignment with each other, that is disposed in a plane parallel to the chains, the direction of movement of the tool 10x will Ibe at right angles to the supporting bars 26a,

261). This arrangement insures accurate broaching of the walls of an opening that extend longitudinally of the blank and at right angles to one end wall thereof, or that end wall'which abuts the supporting bars 26a, 26b. In positioning the tool and connecting its shank 10:0 to the transverse members 21b, 2111, the operative first threads a blank B on to the shank and moves it therealong to a point adjacent its body or teeth bearing portion; he then holds the tool until the transverse members move upwardly around the sprockets '7' and as the links carrying these members leave the sprockets, the operative manipulates the tool shank to effect engagement of the hook 221) and notch 22a with the members .211), :21a,.re-

spectively. The'operative may then retain hold of the tool or the blank or both to guide the blank into engagement with the supporting means 26. When the tool passes through the blank, the operative removes the blank, or it may be allowed to drop onto a chute (not shown) and discharged into a receiver. After broaching the blank opening 17, the tool 10a: may be manually detached from the carrier or it may be carried around the sprockets and caused to release itself. In either arrangement I prefer to provide a means, indicated as an entirety at 27, for passing the tools 10x through the cutting compound and returning them to the forward end of the support 1, where the operative can readily pick up each tool and position it on the carrier.. Of the return means 2'7, 27a, 27b, indicate a pair of shafts, the former mounted in bearings provided in lugs 10 on the front end wall of the support 1 and the other mounted on the bottom la near the rear end wall of the support 1. The shafts 27a, 27b, carry sprockets 28 for endless chains 29 between which is disposed an endless belt 29a of any suitable construction, the belt 29a being connected to the chains 29 so as to be supported and operated by them. The shaft 2711 has an extension to which is secured a sprocket 39 for a chain 31 running around a sprocket 32 fixed to the shaft 11, whereby the belt-29a is driven. As shown in Fig. 9, the return conveyor 290. extends along the bottom la to the front end thereof and then up the front wall lxof the support 1', this wall being inclined for this purpose and its upper end being spaced from the sprockets 7 to provide a relatively wide delivery opening. 33 indicates suitable guide devices for the chains 29 and belt 29a at the front end of the bottom la so as to guide them upwardly along the inclined wall 1x. The guide devices comprise a shaft 33a loosely fitting in openings in the side members lb and held in position by a plug 331) screwed into the outer end of the opening in one wall, sprockets 330 being fixed to the shaft 33a and arranged to engage the upper and lower runs of the chains 29 and a pair-0f rollers 33d loosely mounted on stud shafts 33c extending inwardly from the inner faces of the side members 1b and arranged to engage the upper run of the chains 29. As shown in Fig. 11, the shafts 33c comprise bolts threaded into openings formed in the side members, their heads being preferably countersunk in the ends of the rollers 33d and serving to hold them in position on the shafts. 34 indicates a device which co-operates with the carrier to effect the release or disconnection of the tools therefrom, whereby they drop on the apron or belt 29a. The device 3 comprises a transverse member disposed in spaced relation to the sprockets 6', so that the free end of the tool 101: as

it moves with the carrier around the sprockets,

will engage therewith, which engagement will cause the opposite end (the shank 101:) to swing downwardly and thusdisengage the members 21, 21a,.as shown in dotted lines in Fig. 9. The shank 10x when disengaged from the carrier, will drop onto the belt 29a, which will draw the tool off of the device 34 and convey it to the front end of the'supportj 1. Where a return means is provided, I may use several tools 103, so that additional blanks may be broached without waiting for the .tool to return as would be the case if only one tool were used. To facilitate the delivcry of the tools to the belt 2911, the device 34 may comprise a concave roller loosely mounted on a shaft 34a supported in lugs, provided on the end Wall of the support 1.

When the tool 10a is detached manually from the carrier, it may be dropped downwardly through the space between the end wall of the support 1' and the sprockets 6', where it will engage the belt 29a and be returned thereby.

In Figs. 12 and 13 I have shown a modified form of supporting means for the blank B arranged to engage the side edges of the blank instead of its upper and lower edges. In these views, 35 indicates standards mounted on the side members lb (only one being shown) and supporting a cross bar 36 having a knuckle 36c. 37 indicates a member having a pair of knuckles 37a, straddling the knuckle 36a and connected thereto by a pin 37b, whereby the member is pivotallyconnected to the bar 36. The member 37, when in operative position, depends downwardly from the bar 36, it having a tail portion 38 to engage the lower side of the bar and hold it stationary. The lower portion of the member 37 is slotted, as shown at 37, to provide legs 37cc which are engaged by the blank B at either side of its opening 13-. 39 indicates a coiled spring disposed between the tail portion 88 and the bar 36 and normally tend ing to swing the abutment member 3'? to the position shown in dotted lines in Fig. 12, whereby it clears the transverse shank supporting members 21, 2111. In this form of construction, the abutment is allowed to occupy its normal position until the supporting members 21, 21a, have passed by it, then it is moved downwardly to its operative position and. held therein until engaged by the blank as it and the tool are pulled forwardly by the carrier, the slot 37 in the member 37 permitting it to move to this position without interference with the tool shank 1000.

In Figs. 17 and 18 I have shown a form of construction similar to that illustrated in Figs. 9 and 10, except that the upper portions of the side member lba: are similar to the side members 1b shown in Figs. 1, 2 and 3, whereby these side members may support tools 10, 10, secured in place by suitable devices such as already described or these parts removed and a support 26 secured to the bases 16a for engagement by the blank B, so that a tool 10x may be connected to the chains and be pulled thereby to broach the opening in the blank. By reason of the fact that the sprockets are adjustable on their shafts in an endwise direction and the tool or blank engaging devices on the chains removed or the chains themselves removed, the machine may be readily adapt- I breaching tool, means for securing said tool to said support, a device on said chain arranged to engage a blank and move it relative to the tool, separate means on said support for guiding the blank relative to the tool, and means for driving one of said sprockets.

2. In apparatus of the class described, the combination of a support, a pair of chains, pairs of sprockets for said chains, broaching tools, means for securing said tools on said support in operative relation to the chains, guides for blanks on said support, devices on said chains for engaging the blanks and moving them relative to said tools, and means for driving one pair of said sprockets.

3. An apparatus as claimed in claim 2 in which each of the tool securing means is provided with a guide for the blank and a guide for its moving device.

4. In apparatus of the class described, the combination of a frame, a pair of endless chains mounted on said frame, a base on said frame and extendingparal-lel to one run of the chains, a broaching tool mounted on said base and extending substantially from end to end thereof, said tool comprising separable pairs of upper and lower sections disposed in end to end relation,

means for removably securing the tool to said base, a device on said chains for engaging a blank and moving it relative to said tool, means for maintaining the blank in fixed operative relation to the tool throughout its length, and means for driving said chains.

.5. In apparatus of the class described, the combination of a support provided with a base, a pair of shafts mounted on said support in relation to the ends of said base, sprockets on said shafts, an endless chain on said sprockets and adapted to carry a blank, a relatively long sectional tool, a casing enclosing a portion of said tool, and means for vertically adjustably supporting and securing said casing on said base.

6. In apparatus of the class described, the combination of a support provided with abase, a pair of shafts mounted on said support in re lation to the ends of said base, sprockets on said shafts, an endless chain on said sprockets and adapted to carry a blank, a relatively long sectional tool, a casing enclosing a portion of said tool, and means for vertically adjustably supporting and securing said casing on said base, said means permitting said casing to be adjusted on a longitudinal axis.

7.111 apparatus of the class described, the combination of a support having a base; an endless chain and sprockets therefor mounted on said support and arranged to support one run of the chain in operative relation to said base, a relatively long sectional broaching tool, means for securing the tool to said base, said securing means being adjustable on said base and provided with a guide for the blank to maintain the latter in operative relation to the tool, means carried by said chain for holding and moving a blank relative to said tool, and means for driving one of said sprockets.

HARRY M. STAINFIELD. 

